Программа обучения "Mechanical Engineering" в Technical University of Munich
Maschinenwesen
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Университет
Technical University of Munich
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Степень
Бакалавриат
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Специализация
Energy, Industrial Engineering, Logistics, Mechatronics, Машиностроение
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Стоимость
0 € / Семестр
Air taxis and hyperloop, teleoperated driving, the world's most efficient electric car, humanoid robots, high-tech sports equipment for national team athletes, flexible power plants for the energy turnaround, holistic design of wind power plants, extremely heat-resistant materials for fusion reactors, plastics with antimicrobial properties for hospital applications, devices for minimally invasive surgery, process optimization in the production of lithium-ion cells, CO2 as a carbon source for fuel and chemical production: All this and much more – that is mechanical engineering at TUM!
Общая Информация по Программе обучения "Mechanical Engineering"
- Уровень: Бакалавриат
- Диплом: Bachelor of Science (B.Sc.)
- Язык обучения: Немецкий
- Начало обучения: Зимний семестр
- Срок обучения: 6 семестров
- Форма обучения: Полная
- Учебные кредиты: 180 ECTS
- Стоимость: € 0 / Семестр
- Семестровый взнос: € 85 / семестр
- Правила приема: На основе конкурса
- Минимальный уровень немецкого: C1
Карьерные перспективы по завершению программы обучения "Mechanical Engineering"
If you decide to embark upon a professional career upon concluding the bachelor's program in Mechanical Engineering, then opportunities arise in many and various areas. These include mechanical, plant and vehicle engineering as well as, equally, the aerospace sector or associated suppliers and service providers.
Ожидаемые результаты программы обучения "Mechanical Engineering"
In the fundamental part of the program, students are first introduced to the classical natural sciences of physics and chemistry as well as to mathematics and technical electricity. Students should be able to independently describe processes both qualitatively and mathematically-quantitatively and apply laws or formulas to defined problems.
This is expanded by basic subjects specific to mechanical engineering: Technical mechanics teaches students the ability to formulate and solve mechanical problems independently at an abstract mathematical level. Within the framework of the basics of machine drawing and machine elements, this knowledge is transferred to complex technical drawings, so that students can work out solutions for a production-, load- and assembly-compatible design of components, select suitable machine elements and represent them using CAD systems. In addition to elementary principles of information technology such as computer architecture, the analysis of real-time systems for given control systems and the programming language C are also part of the course. Basing on probability theory, the ability to model engineering problems with consideration of uncertainties is trained. The basic studies are completed by means of the modules materials science, control engineering, fluid mechanics, thermodynamics and heat transport. With this sound knowledge regarding scientific principles, theories and methods, students are able to successfully solve specified mechanical engineering problems with a clear solution path. Students e.g. are able to fulfill a pre-selection of suitable materials based on concrete material requirements, to describe a machine as a thermodynamic system and to design dynamic actively influenced systems.
Стажировки и практика в программе обучения "Mechanical Engineering"
A total of at least 8 weeks of internship is required before you start your studies. The proof is not relevant for the application. The recognition takes place in the beginning of October.
Учебный план программы обучения "Mechanical Engineering"
The 1st semester builds on school knowledge that will be expanded throughout the academic year:
- Mathematics (e.g., systems of linear equations, vectors and matrices, differential and integral calculus, matrix factorizations, multidimensional calculus).
- Chemistry (e.g., atomic structure, bonding, chemical reactions, metals, nonmetals, organic chemistry)
- Physics (e.g. mechanics, electricity, optics)
Parallel to this, students delve into the fundamentals of
- Electricity theory (basics of drive technology as well as electronics)
- Engineering mechanics (bodies at rest in statics and elastostatics, time-independent deformations and stresses)
- Information technology (linking the fundamentals of electrical engineering with those of computer science to solve problems in mechanical and plant engineering)
- CAD and mechanical drawing (creation, understanding and analysis of technical drawings)
- Modeling uncertainties and data in mechanical engineering (probability theory, performing statistical tests, describing engineering problems in the presence of uncertainties)
- Soft skills in the student environment (workshops on how to start studying and how to organize the daily study routine in a goal-oriented way.
In the 3rd and 4th semesters, the following knowledge is taught on the basis of these fundamentals:
- Mathematics (Fourier series as well as Fourier and Laplace transforms, differential equations and integral transforms)
- Technical mechanics (kinematic systems)
- Control engineering (application of mathematical knowledge to the description of stability or damping as well as amplitude and phase frequency responses)
- Materials science (e.g. classification of materials, properties of materials)
- Machine elements (e.g. strength and design calculations, design of a gearbox)
- Fluid mechanics (e.g. behavior of liquid and gaseous media, conservation laws for mass, momentum and energy)
- Thermodynamics (e.g. main laws of thermodynamics, descriptions of states, circular processes)
- Heat transport phenomena (e.g. heat transport mechanisms, calculation of heat flows).
While the four-semester basic studies consist of compulsory modules, only elective modules are offered in the 5th and 6th semesters with the exception of the modules "Mathematical Tools" (translation of engineering problems into mathematical problems and their solution by application-oriented modeling) and "Bachelor's Thesis with scientific papers".
Факультет
School of Engineering and Design
Technical University of MunichWhether we are researching the fundamentals of life, matter, and the universe or looking for solutions to the major challenges facing society: Humans are the focal element of research, innovation and teaching at the TUM School of Engineering and Design (ED). Learn more about the faculty at TUM, one of the world's most excellent universities.
Методика оценки заявок
All applicants who prove their eligibility will be admitted to the program. Criteria for suitability are:
- the average grade of the university entrance qualification, e.g. Abitur (high school diploma)
- subject-specific individual grades (mathematics, German and at least one science or computer science continued until the Abitur)
- extracurricular qualifications (e.g. apprenticeship, internships, participation in competitions).
Very good applicants are admitted directly.
All those who have passed the Abitur with an overall grade of approximately 2.0 to approximately 2.6 (guiding values) are invited to a selection interview. During this interview, candidates have the opportunity to convince their interview partners of their suitability for studying mechanical engineering.
Applicants with an overall grade above approx. 2.6 (guiding value) will be rejected directly.
Please note: If one or more subject-specific individual grades are not shown on your transcript, you will be invited for an interview despite having a very good Abitur.
Полезные ссылки по программе обучения "Mechanical Engineering"
- Сайт программы: https://www.tum.de/studium/studienangebot/detail/maschinenwesen-bachelor-of-science-bsc
- Брошюра / инфо-материалы: https://www.ed.tum.de/ed/studium/studienangebot/maschinenwesen-b-sc/
- Учебный план / модули: https://collab.dvb.bayern/pages/viewpage.action?pageId=73390308&preview=/73390308/73393762/Modulhandbuch_TUM%20School%20ED_BSC_MW_2020_WiSe2223.pdf
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Mechanical Engineering
